Benzene (D6h Symmetry) - Montana State University · experimentally, nu 6 is the primary...

Vibrations of a Polyatomic Molecule

Benzene (D6h Symmetry)

564-17 Lec 29Mon-Wed27,29 Mar17

τd*integral, dipoleion x transitThe 21 ΨΨ∫∞

∞−

The word "totally symmetric" refers to a function that ALWAYS goes into itself upon ALL symmetry operations for the molecule. Typically called A1g or Ag, it is the irreducible representation type whoses characters are ALL = 1

Example: operator x = E1u , and ψ1 is Ag ground state, then need ψ2 = E1u i.e., only transition to E1u are dipole allowed. x and y are equivalent.

%chk=C:\564-17\benzene-vibs.chk#b3lyp/6-311++g(d,p) pop =reg opt freq

benzene b3lyp/6-311++g(d,p) pop =reg opt

0 1C 1.20809735 0.69749533 -0.00000000C 0.00000000 1.39499067 -0.00000000C -1.20809735 0.69749533 -0.00000000C -1.20809735 -0.69749533 -0.00000000C 0.00000000 -1.39499067 -0.00000000C 1.20809735 -0.69749533 -0.00000000H 2.16038781 1.24730049 -0.00000000H 0.00000000 2.49460097 -0.00000000H -2.16038781 1.24730049 -0.00000000H -2.16038781 -1.24730049 -0.00000000H 0.00000000 -2.49460097 -0.00000000H 2.16038781 -1.24730049 -0.00000000

Opt Frequency calculation for benzene with high correlation + large basis (required for accurate frequencies and normal modes)

1 2 3AU B3U AG(E2G)

410.7349 411.6070 622.2315

4 5 6B3G(E2G) B3U B2G

622.2429 685.7410 718.7617

7 8 9B1G B2G AU

860.6162 863.1904 986.4942

10 11 12B3U AG B2G

988.0685 1011.6087 1014.4673

13 14 15B1U B2U B1U

1023.3723 1059.1425 1059.4801

benzene#b3lyp/6-311++g(d,p) pop=reg opt(3 minutes on PC) Frequencies in cm-1 numbered by order of increasing frequency

16 17 18B2U B3G AG

1174.8619 1197.4179 1197.6082

19 20 21B2U B3G B2U

1337.3288 1381.2370 1510.5350

22 23 24B1U B3G AG

1510.8040 1634.4257 1634.4289

25 26 27B1U B3G AG

3157.3697 3166.8865 3166.9359

28 29 30B2U B1U AG

3182.5618 3182.6543 3192.7553

Figure from: "1B2u↔1A1g spectroscopy of jetcooled benzene: Single vibronic levelfluorescence studies"Thomas A. Stephenson, Patricia L. Radloff, and Stuart A. RiceCitation: J. Chem. Phys. 81, 1060 (1984); doi: 10.1063/1.447800

Numbered by mode convention

e2g x B2u = E1u

one-photon Herzberg-Teller active

two-photon Herzberg-Teller active

923 cm-1 ν1 a1g993 in ground Only a1g modesare FC-active(non-zero Franck-Condon

factors)

522 cm-1 ν6 e2g608 in ground

1570 cm-1 ν14 b2u1309 in ground

τd*integral, dipoleion x transitThe 21 ΨΨ∫∞

∞−

The word "totally symmetric" refers to a function that ALWAYS goes into itself upon ALL symmetry operations for the molecule. Typically called A1g or Ag, it is the irreducible representation type whoses characters are ALL = 1

Herzberg-Teller activity: operator x = E1u , and ψ1 is Ag ground state, then need ψ2 = e2g x B2u = E1u vibronic state which is formally dipole allowed. only 1 quantum of e2g vibrations make significant intensity

e2g x B2u = E1u only 1 quantum of e2g vibrations make significant intensity

37000 38000 39000 40000 41000 42000 430000.0

Benzene vapor, room temperature

610 (10

601 (10

0)521 cm-1

608 cm-1

100 916.8 896.5

Ground A1g 0 606 cm-1 ν6 e2g

Electronic symmetry vibrationalsymmetry

Vibronicsymmetry

61 521 cm-1 ν6 e2g E1u

11 923 cm-1 ν1 a1g B2u

993 cm-1 ν1 a1g

0 a1g B2u

601 10

1 601 10

61 11 e2g E1u

f= forbidden red = allowed

61 12 e2g E1u

61 13 e2g E1u

Hot bands (have Boltzmannfactor.

39400 39450 39500 39550 39600 39650-0.2

Figure from: "1B2u↔1A1g spectroscopy of jetcooled benzene: Single vibronic levelfluorescence studies"Thomas A. Stephenson, Patricia L. Radloff, and Stuart A. RiceCitation: J. Chem. Phys. 81, 1060 (1984); doi: 10.1063/1.447800

Benzene in coldjet (vib. temperatureis about 50 K.

801 E2g

Figure from: "1B2u↔1A1gspectroscopy of jetcooled benzene: Single vibronic levelfluorescence studies"Thomas A. Stephenson, Patricia L. Radloff, and Stuart A. RiceCitation: J. Chem. Phys. 81, 1060 (1984); doi: 10.1063/1.447800

x2-y2xy

fπ MOs of Benzene

1Lb , 1B2u

1La , 1B1u

1Ba,b ,1E1u

Ground

(xxy)(yx2–y2)

(yxy)(xx2–y2)

2-1/2 (xxy)-(yx2–y2)

2-1/2 (yxy)-(xx2–y2)

2-1/2 (yxy)+(xx2–y2)2-1/2 (xxy)+(yx2–y2)

After CIS

(Reduced) 1st order Transition Density is Product of Ground

and Excited statewavefunctions

(integrated over all but oneelectron)

A1g-B2uTransitionDensity

B2uVibrationMode 14

A1g-E1u

Transition DensityLooks like a dipole

E2g+ E2g

-E2g+ E2g

B2u- B1u

E1u- E1u

+ E1u+

1,2,3 substitutiongives very weak one-photonabsorption

E2g vibrationsinduce weak one-photonabsorption

The previous slide has a wealth of information. It is answering the question: what perturbation symmetry will mix E1u(the x,y symmetry) into the one-photon forbidden B2u and B1u states to make them one-photon allowed.

It also answers the question: what perturbation symmetry will mix A1g and E2g (the x2 + y2, and x2 - y2 ,xy, symmetries) into the two-photon forbidden B2u and B1u states to make them two-photon allowed.(We will study two-photon absorption briefly in a later lecture to understand the reason for these symmetries)

One-photon absorption: <B2u|H’|E1u> ≠ 0 requires H’ = e2gB2u requires an e2g perturbation (H’) because B2u x e2g = E1u

experimentally, nu 6 is the primary Herzberg-Teller active vibration for benzene; it is weak because the transition density is on the atoms, not the bonds.

inductive perturbations due to substituents e.g., fluoro make strong allowedness in various patterns because the transition density is on the atoms: 1,4 difluoro will be 4 times more intense than mono-sustitution. 1,2,3 will provide no intensity although allowed by symmetry because of cancellations!

B1u also requires an e2g perturbation because B1u x e2g = E1unu 8 is very strongly HT-active, making B1u have molar extinction =10,000(!) because it is bond stretching.

inductive perturbations have little effect because the transition density is in the bonds, as shown on the next slide.

Two-photon absorption: <B2u|H’|A1g> or <B2u|H’|E2g> ≠ 0 requires H’ be B2u or E1u

the “Kekule” vibration perturbation overlaps the B2u transition density very strongly and mixes the B2u electronic state so strongly with the ground state that the frequencies are affected (pseudo Jahn-Teller effect) and creates extremely strong two-photon absorption.

The B1u state has weak vibrationally induced intensity, but inductive perturbations induce strong intensity because the transition density is on the atoms, as shown in a slide below.

Two-Photon Fluor. Excitation Spectrum

Benzene in hexane

Fluoro-Benzene in hexane

1401 (10

100 Solvent induced

1500 cm-1

Benzene (D6h Symmetry) - Montana State University · experimentally, nu 6 is the primary...

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